This article outlines methods to improve the performance of optical fiber SPR sensing, such as sensitivity, detection limit, detection range, and specific selectivity.
Surface plasmon resonance technique in collaboration with optical fiber technology has brought tremendous advancements in sensing of various
In this review article, we present the principle of SPR technique for sensing and various designs of the fiber optic SPR probe reported for the
Abstract: Since the introduction of optical fiber technology in the field of sensor based on the technique of surface plasmon resonance (SPR), fiber-optic SPR sensors have witnessed a lot of
Before going into the sensing capabilities of SPR, its basic principle should be defined. Surface plasmon resonance is a phenomenon that gives an oscillating charge density at the interface
In this article, the development and advancement of FO-SPR sensor were reviewed. And the principle and performance of multiple SPR techniques based on optical fiber for sensing
The sensing principles of optical fiber-based SPR sensors are introduced, and different optical fiber-based SPR biosensors are described. Finally, the present challenges and prospects are discussed.
This review provides a comprehensive overview of optical fiber biosensors that utilize SPR. The principles and recent developments of optical fiber sensors are described.
range of biological analytes. This paper provides a comprehensive overview of recent progress in optical fiber SPR biosensors. It begins by discussing the fundamental principles and structural
This chapter provides an in-depth exploration of U-type fiber optic sensors and their applications in SPR sensing. Initially, the fundamental principles of U-type fiber optic sensors are
Fiber optic surface plasmon resonance (FO-SPR) sensing technology is an innovative fusion of fiber sensing technology and the SPR detection mechanism, resulting in a novel sensor
Since the introduction of optical fiber technology in the field of sensor based on the technique of surface plasmon resonance (SPR), fiber-optic SPR
Abstract Optical fiber surface plasmon resonance (SPR) sensors are commonly utilized in chemical and biological sensing, but they encounter challenges in achieving high accuracy and
Due to the benefits of the high sensitivity, real-time response, no labeling requirement, and good selectivity, fiber optic sensors based on surface
U-type fiber optic SPR sensors have been the focus of current research and development, and this study examines their architecture and operating principles. U-type fiber optic
Here, we review SPR fiber sensor architectures, covering the latest developments from optical fiber geometries to plasmonic coatings. By developing
Polymer optical fibers (POFs) based SPR sensors have a lot of potential in biosensing fields because of their specific merits of good flexibility, high coupling efficiency and easy fabrication.
The surface plasmon resonance (SPR) technique has proven indispensable as an optical sensing method owing to its extraordinary sensitivity to changes in refractive index, making it crucial for
Summary <p>Optical fiber based surface plasmon resonance (SPR) sensor, with small size and low cost, has been widely applied in biochemical, medical diagnostics and environmental monitoring due
The current review outlines the research status of fiber optic biosensor based on SPR, and the merits of optical fiber sensor and the development of optical fiber sensor based on SPR are
Fiber-optic sensors based on Bragg gratings, long-period gratings, interferometry, surface plasmon resonance (SPR), fluorescence, and light
In fact, SPR optical fiber biosensors are becoming very popular in environmental science, clinical diagnosis, disease detection, and food safety. This review provides a comprehensive overview of
Optical fiber surface plasmon resonance (SPR) sensors have broad application potential in the fields of biomarker detection, food allergen screening, and environmental monitoring due to their unique
The recent progress in nano-optics has developed susceptible and label-free optical devices using SPR/LSPR techniques of the metal films and nanostructures. The survey focuses on
A theoretical model for surface plasmon resonance (SPR) based tapered fiber optic sensor is proposed with three different taper profiles, namely,
Fiber-optic (FO) surface plasmon resonance (SPR) sensors can be used as label-free and highly sensitive tools for biosensing. They have been widely applied in fields of environmental
The principles and recent developments of optical fiber sensors are described. Different SPR optical fiber biosensors, including traditional optical fiber SPR biosensors, microstructured
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